WATER PURIFICATION PROCESSES
Water purification is the process of removing undesirable chemicals, biological contaminants, and suspended solids and gases from water with the goal of producing water fit for a specific purpose. Most publicly supplied drinking water goes through a disinfection process, but water purification may also be designed for other purposes, including fulfilling the requirements of pharmacological, medical, chemical and industrial applications, or just to upgrade the drinking water supply. The methods used include physical processes such as sediment filtration, carbon based filtration, sedimentation with sand filters; chemical processes such as flocculation and chlorination and the use of ultraviolet light or ozone. Some water supplies have detected levels of a disinfection by-product known as Trihalomethanes which can be removed with a specific type of carbon based filtration system. Water testing is the first step in determining what needs to be dealt with in your water supply.
FOR YOUR HOME OR BUSINESS
On an individualized basis, water purification systems can be installed for the removal of almost any of the potential water quality concerns you may have. For example, lead is typically removed from drinking water with either a reverse osmosis water purification system or a carbon filter designed specifically for the removal of lead from water. Water softeners are typically installed to remove dissolved iron or manganese and hardness minerals in the water through a technology called Ion Exchange (see below for more detailed information on this). A water softener will also remove dissolved lead from the water as well, however they are usually installed ahead of the piping where the potential for lead leaching is most likely to occur and is not recommended for this purpose. To remove particulate iron or manganese, a properly sized sediment filter is required. Radon or arsenic in the water requires other technologies and systems. Water testing will lead to the right system design & installation.
BAD ODORS & TASTES
In addition to the above systems described, there are many other types of systems to remove bad tastes & odors, sediment and many other objectionable minerals and contaminants that may be present in the water. For more detailed information on bad odors and tastes in your water, see the link at: https://h2ocare.com/bad-odor-taste/.
THE AFFECTS OF HARD WATER
The only way to know how hard your water is by having it tested. There are on-site testing methods that are reliable or you can have a sample taken to a certified laboratory. If you have a private well, there can be a very different hardness level than even the house across the street with a private well. Hard water interferes with many cleaning tasks, from doing the laundry to washing dishes to taking a shower. Washing your hair in hard water may leave it feeling sticky and dull. Dishes and glasses get spotted or streaky and a film may build up on shower doors, bathtubs, sinks and faucets. Clothes can look dingy and feel rough and scratchy. Magnesium and Calcium may have major affects on your home’s plumbing and your ability to clean, even though the EPA has no published limits on these. Scale from hard water can build-up inside water heaters insulating the temperature sensor inside the tank creating extra work to bring the temperature up to the set level. This reduces the life of your hot water heater and will likely require early replacement. Hard water can also cause scale build-up in pipes that can lower water pressure throughout the plumbing distribution system (see photo below).
The primary hard water minerals are calcium and magnesium (the hardness minerals), while iron and manganese (“The Stainers”) can also be found in water, mostly in private wells. Depending on whether the contaminant’s form is in solution or particulate, these contaminants can be removed with a water softener and/or a properly specified sediment water filtration installation.
A water softener will improve your water greatly if you have hard water minerals, iron, or manganese in your water. If other impurities are confirmed in the water test, they can be removed with other types of water filtration systems. The maximum allowable level (per the Environmental Protection Agency) for iron as a secondary contaminant is .3 parts per million and for manganese is .05 parts per million. Small amounts of these minerals can have very noticeable, even damaging affects on your home’s water quality.
Any water purification system recommendation should start with a water test before an informed decision can be made. To determine what type of water testing to have performed and how to take a proper sample, call a water treatment professional or a state certified laboratory. In summary, controlling your Bridgewater water quality is attainable through proper water testing and equipment specification with today’s available water filtration technologies at a reasonable price. Proper on-going maintenance is also critical to maintain a consistent level of great water quality. To see annual water quality reports from the town of Bridgewater for the public water supply, go to the link at: 2017 Annual Water Quality Report.